CN220511199U - Voice intercom communication system under complex working condition - Google Patents

Abstract

The application provides a voice intercom communication system under a complex working condition. The voice intercom communication system comprises a service end device and at least one terminal device, wherein the at least one terminal device comprises a first terminal device. The first terminal device comprises a wearable detection device. The first terminal device can receive the voice signal sent by the server device through the communication module, and the voice signal transmission is achieved. Optionally, the first terminal device may also send a voice signal to the server device through the communication module. In addition, the wearable voice interaction device of the first terminal device is in contact with the head skin of the first user, and the physical state parameter of the first user can be detected through the head skin of the user. Thus, when the physical state parameters of the first user are abnormal, the first terminal equipment can send the first alarm signal to the server equipment, so that the user is prevented from being injured in the complex working condition.

Description

Voice intercom communication system under complex working condition

Technical Field

The utility model relates to the technical field of communication equipment, in particular to a voice intercom communication system under a complex working condition.

Background

The voice intercom communication system can realize voice communication between more than two users, and is widely applied in a plurality of fields. The voice intercom communication system may comprise at least two terminal devices. The terminal devices can communicate through a preset frequency band so as to realize the transmission of voice signals.

In some application scenarios where command is required, a voice intercom communication system including a server device and at least one communication terminal may be used. The user using the server device may send a voice signal to the communication terminal through the server device, and the user using the terminal device may send a voice signal to the server device through the terminal device. In this way, the director can send voice instructions to one or more terminal devices through the server device, and can also receive information reported by a user using the terminal devices through the server device.

In a scene of using a voice intercom communication system including a server-side device, a scene with a relatively complex working condition is often used. In these scenarios, the physical health of the user using the terminal device may be compromised

Disclosure of Invention

In view of this, the present application provides a voice intercom communication system under complex working conditions, which aims to monitor the physical condition of the user of the terminal device.

In a first aspect, the present application provides a voice intercom communication system under a complex working condition, where the system includes a server device and a first terminal device; the first terminal device comprises a wearable detection device;

the wearable detection device is used for collecting sound emitted by a first user and generating a first voice signal, and the first user is a user using the first terminal equipment;

the first terminal equipment is used for sending a first voice signal to the server-side equipment;

the server device is used for receiving a first voice signal sent by the server device;

the wearable detection device is in skin contact with the head of the first user;

the wearable detection device is further used for detecting physical state parameters of the first user;

the first terminal device is further configured to send a first alarm signal to the server device when the physical state parameter of the first user is abnormal.

In some possible implementations, the wearable detection device includes a stationary module and a sensor module;

the fixing module is used for fixing the wearable detection module to the head of the first user;

the sensor module is positioned at a position where the wearable detection module is contacted with the skin of the head of the first user;

the sensor module is used for detecting the skin of the head of the first user so as to obtain the physical state parameter of the first user.

In some possible implementations, the securing module includes a resilient headband for securing the wearable detection device to the first user's head, the sensor module being disposed in the resilient headband.

In some possible implementations, the first terminal device is further configured to obtain a second voice signal sent by the server device, and play a voice corresponding to the second voice signal.

In some possible implementations, the first terminal device is further configured to play a preset prompting voice when the physical state parameter of the first user is abnormal.

In some possible implementations, the first terminal device further includes a first indicator light,

the first terminal device is further configured to control the first indicator light to emit light when the physical state parameter of the first user is abnormal.

In some possible implementations, the voice intercom communication system further includes a second terminal device;

the first terminal device is further configured to receive a second alarm signal sent by a second terminal device, where the second alarm signal is used to indicate that a physical state parameter of the second user is abnormal, and the second user is a user who uses the second terminal device;

the first terminal device is further configured to send the second alarm signal to the server device.

In some possible implementations, the physical state parameters of the first user include one or more of:

heart rate, blood pressure, body temperature, and blood oxygen saturation.

The application provides a voice intercom communication system under a complex working condition. The voice intercom communication system comprises a service end device and at least one terminal device, wherein the at least one terminal device comprises a first terminal device. The first terminal device comprises a wearable detection device. The first terminal device can receive the voice signal sent by the server device through the communication module, and the voice signal transmission is achieved. Optionally, the first terminal device may also send a voice signal to the server device through the communication module. In addition, the wearable voice interaction device of the first terminal device is in contact with the head skin of the first user, and the physical state parameter of the first user can be detected through the head skin of the user. Thus, when the physical state parameter of the first user is abnormal, the first terminal device can send a first alarm signal to the server device. Therefore, the user of the terminal equipment with the body state possibly abnormal can be timely found, and the user is prevented from being injured in the complex working condition.

Drawings

In order to more clearly illustrate the present embodiments or the technical solutions in the prior art, the drawings that are required for the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a voice intercom communication system under a complex working condition according to an embodiment of the present application.

Detailed Description

In order to enable those skilled in the art to better understand the technical solutions provided by the present utility model, the present utility model will be further described in detail below with reference to specific drawings and specific embodiments.

In disaster relief application scenes such as fire scene rescue, pollutant treatment and the like, disaster relief personnel entering a dangerous area can carry terminal equipment with them. The disaster relief director can send a voice signal to terminal equipment carried by disaster relief personnel through the service end equipment. The terminal equipment can play the voice sent by the disaster relief director so that the disaster relief personnel can act according to the instruction of the disaster relief director. In addition, the disaster relief personnel can also send voice to the disaster relief director through the terminal equipment so as to enable the disaster relief director to know the specific conditions in the dangerous area. And communication can also be carried out between different terminal devices, so that a plurality of disaster relief personnel work cooperatively.

In consideration of complex conditions such as disaster relief, users of terminal devices (e.g., disaster relief personnel) often are in a relatively dangerous environment. Thus, the physical condition of the user may be affected by the environment, threatening the declaration security of the user. For example, in a fire rescue scenario, the body temperature of a disaster relief person may gradually increase with the working time in a fire scene. Along with the rising of the body temperature of the disaster relief personnel, the disaster relief personnel can be in coma, heatstroke and the like, so that the normal operation of disaster relief can be influenced, and the personal safety of the disaster relief personnel can be influenced.

At present, the physical condition of disaster relief personnel is mostly controlled by the disaster relief personnel. If the disaster relief personnel feel uncomfortable, the disaster relief personnel can leave the disaster relief site to rest. However, in the disaster relief work, the disaster relief personnel is in a busy and tense state, and may not accurately feel the physical condition of the personnel. Therefore, disaster relief personnel may not find out the abnormal physical state of the personnel in time, so that the personal safety of the personnel is threatened.

It should be noted that some wearable devices at present have a certain health monitoring function. For example, a wristband used by an elderly person may have a function of monitoring the body posture of the elderly person, thereby giving an alarm in time after the elderly person falls. Alternatively, a sports watch or wristband worn by the athlete may also have heart rate monitoring functionality, giving a reminder to the wearer to take a break in time when the wearer's heart rate is high.

However, although judging the physical state of a user based on physical parameters is widely used in some fields, it is not applied in the disaster relief field, and there is no adaptive design for application scenes such as disaster relief.

Therefore, the embodiment of the application combines the health monitoring function integration with the terminal equipment in the voice intercom communication system, improves the terminal equipment in the voice intercom communication system used in the disaster relief and other scenes, integrates the traditional health monitoring function, and adds an alarm function for the voice intercom communication system through simple judgment logic. It can be understood that the above logic function belongs to a simpler judging logic function, and is not different from the traditional condition judging logic, and a person skilled in the art can easily think of the implementation of the judging logic according to the actual requirement.

Therefore, the embodiment of the application provides a voice intercom communication system under a complex working condition. The voice intercom communication system comprises a first terminal device, wherein the first terminal device can collect and detect physical state parameters of a user of the first terminal device, so that the first terminal device can alarm the service end device when the physical state of the user is abnormal. Therefore, the terminal equipment of the voice docking communication system is used for monitoring, and the user does not need to carry additional equipment even if the abnormality of the physical state of the user is found. In particular, the first terminal device may comprise a wearable detection means in contact with the skin of the head of the user of the first terminal device, which on the one hand may play the voice signal and collect the voice signal, and on the other hand may detect the physical state parameter of the user through the skin of the head of the user.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a voice intercom communication system according to an embodiment of the present application. The voice intercom communication system includes a server apparatus 100 and a first terminal apparatus 200. In addition, the voice intercom communication system may further include a second terminal apparatus 300. Wherein the server device 100 and the first terminal device 200 may establish a connection through a wireless signal, thereby transmitting messages to each other.

In the embodiment of the present application, the first terminal device 200 at least includes a wearable detection apparatus 210. Wherein the wearable detection device 210 is in contact with the skin of the head of the first user. The first user refers to a user of the first terminal apparatus 200. The wearable detection module 210 may play a voice signal to cause the first user to hear a conversation of the user of the server device and/or the user of the other terminal device. In addition, the wearable detection module 210 may further detect the skin of the head of the first user to obtain the physical state parameter of the first user. The physical state parameter of the first user is used to indicate the health of the first user. By monitoring the physical state parameters of the first user, it may be determined whether the first user is in a dangerous situation.

If the first terminal device 200 determines that the physical state parameter of the first user is abnormal, the first terminal device 200 may transmit a first alarm signal to the server device 100 through the communication module. After receiving the first alarm signal, the server device 100 may determine that the body of the first user may be abnormal according to the first alarm signal. In this way, the user using the server device 100 may send a voice to the first terminal device 100 through the server device 100 to instruct the first user to return to the secure area for rest.

Optionally, the first alert signal may include related information indicating the first user. For example, the first alert signal may include an identification of the first terminal device 200. As another example. The first alert signal may also include a user identification of the first user. In this way, after receiving the first alert signal, the server device 100 may determine that the body of the first user may be abnormal according to the first alert signal, thereby informing the first user of the rest in a targeted manner.

In some possible implementations, the physical state parameters of the first user may include any one or more of heart rate, body temperature, and blood oxygen saturation of the first user. Accordingly, assuming that the physical state parameter of the first user includes a heart rate of the first user, the terminal device 100 may determine that the physical state parameter of the first user is abnormal if the heart rate of the first user is higher than the first heart rate threshold, or the heart rate of the first user is lower than the second heart rate threshold (the second heart rate threshold is lower than the first heart rate threshold). Assuming that the physical state parameter of the first user includes the blood pressure of the first user, the terminal device 100 may determine that the physical state parameter of the first user is abnormal if the blood pressure of the first user is higher than a first blood pressure threshold value, or the blood pressure of the first user is lower than a second blood pressure threshold value (the second blood pressure threshold value is lower than the first blood pressure threshold value). Assuming that the physical state parameter of the first user includes the body temperature of the first user, the terminal device 100 may determine that the physical state parameter of the first user is abnormal if the body temperature of the first user is higher than the first body temperature threshold, or the body temperature of the first user is lower than the second body temperature threshold (the second body temperature threshold is lower than the first body temperature threshold). Assuming that the physical state parameter of the first user includes the blood oxygen saturation of the first user, the terminal device 100 may determine that the physical state parameter of the first user is abnormal if the blood oxygen saturation of the first user is lower than the first blood oxygen saturation threshold.

In an actual application scenario, the first user may be in motion. Thus, in order to ensure that the wearable detection module 210 is able to continuously detect the physical state parameter of the first user, the wearable detection module 210 may comprise a stationary module and a sensor module. Wherein the sensor module is deployed in a stationary module. The securing module is used to secure the wearable detection module 210 to the head of the first user such that the sensor module remains in contact with the skin of the head of the first user. The sensor module is used for acquiring physical state parameters of the first user.

Since the fixing module is used to fix the wearable sensing module 210 to the head of the first user, the fixing module may be in contact with the skin of the head of the first user. Thus, the above-described sensor module may be deployed in a stationary module and in contact with the head skin of the first user.

In some possible implementations, the fixing module may be an elastic headband for fixing the wearable detection module at the forehead of the first user. The sensor module is integrated in the elastic headband and is deployed at a position where the skin of the forehead of the first user contacts, so that the first user is detected, and the physical state parameter of the first user is obtained. Optionally, the length of the elastic headband may be adjustable. Alternatively, the elastic headband may have a sweat absorbing function or a sweat guiding function.

In some implementations of the foregoing description, the first terminal device 200 may alert the server device 100 when the physical state parameter of the first user is abnormal, so that the user of the server device 100 knows that the first user may have a potential safety hazard. Alternatively, the first terminal device 200 may alert the first user in addition to the alert service 100. For example, the first terminal device 200 may further include a prompt module, where the prompt module is configured to remind the first user.

For example, in a scenario where the first terminal device 200 includes a headset portion, the first terminal device 200 may play a first alert voice to alert the first user that the physical state parameter of the first user is abnormal, and thus, the first user needs to make a rest adjustment in time. Accordingly, the player in the headset portion may be considered a cue module

Alternatively, the first terminal device 200 may further include a warning light. After determining that the physical state parameters of the first user are abnormal, the first terminal device 200 may prompt the first user that the physical state parameters of the first user are abnormal by lighting a prompt lamp, so that the first user needs to have a rest and be adjusted in time. Accordingly, the cue light in the first terminal device 200 may be regarded as a cue module.

Alternatively, the indicator lights described above may also be deployed on the wearable detection module. For example, if the wearable detection module includes a stretch headband, then the indicator lights may be deployed on the stretch headband. Specifically, the first user's eyes may be located at a position corresponding to the eyes of the first user. Thus, the first user can see the light of the prompt lamp in time, and accordingly the body of the first user is determined to be in an abnormal state.

In an actual application scenario, the connection between the terminal device and the server device may be broken due to the influence of the environment, so that the terminal device may not be able to send an alarm signal to the server device through the connection with the server device. Therefore, in order to enable the message of the abnormal physical state of the user to be timely acquired by the server-side device, the terminal device in the embodiment of the application can also have a forwarding function.

Specifically, after the connection between the second terminal device and the server device is disconnected, the second terminal device may send an alarm signal to the server device through the other terminal device. For example, assuming that the distance between the second terminal device and the server device is far and the distance between the second terminal device and the first terminal device is near, if the physical state parameter of the user of the second terminal device is abnormal, the second terminal device may send a second alarm signal to the first terminal device. The second alarm signal is used for indicating that the physical state parameter of the user of the second terminal device is abnormal. After receiving the second alert signal, the first terminal device may forward the second alert signal to the server device. It will be appreciated that if the connection between the first terminal device and the server device is broken, the first terminal device may also send the first alarm signal and the second alarm signal to the server device through other terminal devices in the voice intercom communication system.

The above is merely a preferred embodiment of the present application, and is not intended to limit the present application in any way. While the present application has been described with reference to the preferred embodiments, it is not intended to limit the present application. Any person skilled in the art may make many possible variations and modifications to the technical solution of the present application, or modify equivalent embodiments, using the methods and technical contents disclosed above, without departing from the scope of the technical solution of the present application. Therefore, any simple modification, equivalent variation and modification of the above embodiments according to the technical substance of the present application, which do not depart from the content of the technical solution of the present application, still fall within the scope of protection of the technical solution of the present application.

Claims (7)

1. The voice intercom communication system under the complex working condition is characterized by comprising a server-side device and a first terminal device; the first terminal device comprises a wearable detection device;

the wearable detection device is used for collecting sound emitted by a first user and generating a first voice signal, and the first user is a user using the first terminal equipment;

the first terminal equipment is used for sending a first voice signal to the server-side equipment;

the server device is used for receiving a first voice signal sent by the server device;

the wearable detection device is in skin contact with the head of the first user;

the wearable detection device is further used for detecting physical state parameters of the first user;

the first terminal device is further configured to send a first alarm signal to the server device when the physical state parameter of the first user is abnormal;

the first terminal device further comprises a first indicator light, wherein the first indicator light is positioned at a position corresponding to eyes of a first user;

the first terminal device is further configured to control the first indicator light to emit light when the physical state parameter of the first user is abnormal.

2. The voice intercom communication system of claim 1 wherein said wearable detection device comprises a stationary module and a sensor module;

the fixing module is used for fixing the wearable detection device on the head of the first user;

the sensor module is positioned at a position where the wearable detection device is contacted with the skin of the head of the first user;

the sensor module is used for detecting the skin of the head of the first user so as to obtain the physical state parameter of the first user.

3. The voice intercom communication system of claim 2 wherein said securement module comprises a resilient headband for securing said wearable detection device to the head of said first user, said sensor module being disposed in said resilient headband.

4. The voice intercom communication system according to claim 1, wherein the first terminal device is further configured to obtain a second voice signal sent by the server device, and play a voice corresponding to the second voice signal.

5. The voice intercom communication system of claim 1 wherein,

the first terminal device is further configured to play a preset prompting voice when the physical state parameter of the first user is abnormal.

6. The voice intercom communication system of claim 1 further comprising a second terminal device;

the first terminal device is further configured to receive a second alarm signal sent by a second terminal device, where the second alarm signal is used to indicate that a physical state parameter of a second user is abnormal, and the second user is a user who uses the second terminal device;

the first terminal device is further configured to send the second alarm signal to the server device.

7. The voice intercom communication system of any of claims 1-6 wherein the physical state parameters of the first user comprise one or more of:

heart rate, blood pressure, body temperature, and blood oxygen saturation.